Claims
- 1. A foldable article of furniture in the form of a chair, table, or other such load-support device, comprising an upper load-bearing structure and a lower load-bearing structure, each having a plurality of load-sharing portions thereof defined by the pivotally articulated integration of said upper and lower load-bearing structures with intersecting front and rear leg frames so as to move through a desired range of operating positions in response to changing load conditions when in use, so as to apportion and redistribute loads between said upper and lower load-bearing structures, said load-sharing portions thereof, and said integrating front and rear leg frames, so as to balance and counterbalance dynamic fractional loads among said structures, said portions thereof, and said leg frames and in so doing to conform implicitly and spontaneously to the specific and dynamic postures, proportions, purposes, and actions of a user and thereby to provide comprehensively adaptable support for all dynamic fractional and gross loads bearing on said load-bearing structures and said integrating leg frames; said article being characterized by:
- said front leg frame comprising spaced side elements and at least one cross-member, said front leg frame defining a first imaginary plane inclined with respect to the horizontal when the article is in use;
- said rear leg frame comprising spaced side elements and at least one cross-member, said rear leg frame defining a second imaginary plane oppositely inclined with respect to the horizontal and intersecting said first imaginary plane between said front leg frame side elements when said article is in use;
- said upper load-bearing structure comprising spaced side elements, at least one cross-member, and at least one surface element, said upper load-bearing structure being pivotally connected to said rear leg frame above said intersection of said first and second imaginary planes by aligned pivotal connecting means at a first pair of pivot points rearward of the forward end of said upper load-bearing structure, so as to define a boundary between an intermediate upper load-sharing portion and a front upper load-sharing portion of said upper load-bearing structure, and being pivotally connected to said front leg frame above said intersection of said first and second imaginary planes by aligned pivotal connecting means at a second pair of pivot points rearward of said first pair of pivot points, so as to define a boundary between a rear upper load-sharing portion and said intermediate upper load-sharing portion of said upper load-bearing structure, the outer lateral surfaces of said upper load-bearing structure side elements being generally adjacent the inner lateral surfaces of said front leg frame side elements at said second pair of pivot points and the inner lateral surfaces of said upper load-bearing structure side elements being generally adjacent the outer lateral surfaces of said rear leg frame side elements at said first pair of pivot points;
- said lower load-bearing structure comprising spaced side elements and at least one cross-member, said lower load-bearing structure being pivotally connected to said front leg frame below said intersection of said first and second imaginary planes by aligned pivotal connecting means at a third pair of pivot points rearward of the forward end of said lower load-bearing structure, so as to define a boundary between an intermediate lower load-sharing portion and a front lower load-sharing portion of said lower load-bearing structure, and being pivotally connected to said rear leg frame below said intersection of said first and second imaginary planes by aligned pivotal connecting means at a fourth pair of pivot points rearward of said third pair of pivotal points, so as to define a boundary between a rear lower load-sharing portion and said intermediate lower load-sharing portion of said lower load-bearing structure, the outer lateral surfaces of said lower load-bearing structure side elements being generally adjacent the inner lateral surfaces of said front leg frame side elements at said third pair of pivot points and the inner lateral surfaces of said lower load-bearing structure side elements being generally adjacent the outer lateral surfaces of said rear leg frame side elements at said fourth pair of pivot points;
- the relative distances between said first, second, third, and fourth pairs of pivot points and the relative dimensions of said upper and lower load-bearing structures and of said integrating front and rear leg frames being proportioned to afford optimum versatility, adaptability, and utility in said article when said article is in use and when appropriate to allow said article to be folded to a substantially flat disposition when not in use; and
- motion governing means, by which at least one of said upper and lower load-bearing structures cooperates with at least one of said integrating front and rear leg frames, so as to govern the relative pivotal movements of said upper and lower load-bearing structures and of said front and rear leg frames of said article through said desired range of operating positions when said article is in use;
- whereby said article is an integrated assemblage of reciprocally interactive load-bearing structures, of co-responsive, load-distributing, balancing, implicity load-reapportioning, and mutually counterbalancing load-sharing portions thereof, and of cooperating supportive leg frames.
- 2. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements equals or exceeds the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements equals or exceeds the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein at least one said lower load-bearing structure cross-member is disposed forward of said third pair of pivot points, and wherein at least one said lower load-bearing structure cross-member is disposed rearward of said fourth pair of pivot points, said article thereby forming a pivotally articulated foldable table comprising mutually co-responsive, balancing, load-distributing, counterbalancing, and load-reapportioning dual footrest and table-top load-bearing structures.
- 3. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements equals or exceeds the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements equals or exceeds the space between the outer lateral surfaces of said upper load-bearing structure side elements, and wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, said article thereby forming a pivotally articulated foldable table, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning footrest and table-top load-bearing structures.
- 4. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements equals or exceeds the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements equals or exceeds the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein said front leg frame side elements are substantially longer than said rear leg frame side elements, wherein the greater length of said front leg frame side elements is disposed substantially between said second and third pairs of pivot points, and wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure; said article thereby forming a pivotally articulated foldable table, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning footrest and inclined table-top load-bearing structures.
- 5. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said front leg frame side elements, wherein at least one said lower load-bearing structure cross-member is disposed forward of said third pair of pivot points, and wherein at least one said lower load-bearing structure cross-member is disposed rearward of said fourth pair of pivot points, said article thereby forming a pivotally articulated foldable stool, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning dual footrest and seat load-bearing structures.
- 6. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said front leg frame side elements, and wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, said article thereby forming a pivotally articulated foldable stool, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning footrest and seat load-bearing structures.
- 7. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein a portion of the said front leg frame is disposed above said second pair of pivot points, wherein at least one said front leg frame cross-member is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, wherein said fourth pair of pivot points is generally near the lower end of said rear leg frame, wherein said third pair of pivot points is generally near the lower end of said front leg frame, and wherein said lower load-bearing structure side elements are curved to resemble shallow inverted longitudinal arcs having concave surfaces oriented upwardly and having convex surfaces oriented downwardly such that the lower convex surfaces of said lower load-bearing structure side elements engage the supportive grounding surface, the lower load-bearing structure thereby forming a rockered footrest base structure when the article is in use, said article thereby forming a pivotally articulated foldable rocking chair comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning rockered footrest base and seat load-bearing structures and cooperating backrest element.
- 8. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper-bearing structure side elements, wherein a portion of said front leg frame is disposed above said second pair of pivot points, wherein at least one said front leg frame cross-member is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, and wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, said article thereby forming a pivotally articulated foldable free-standing chair, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning footrest and seat load-bearing structures and cooperating backrest element.
- 9. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein a portion of said front leg frame is disposed above said second pair of pivot points, wherein at least one said front leg frame cross-member is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, wherein said front leg frame is connected in static union with a supportive grounding surface, wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, wherein said fourth pair of pivot points is generally near the lower end of said rear leg frame, and wherein said motion-governing means are adapted to suspend the lower end of said rear leg frame in space, independent of a supportive grounding surface, when the article is in use, said article thereby forming a fixed-front-leg-frame stationary chair, comprising mutually co-responsive balancing, load-distributing, counterbalancing, and load-reapportioning footrest and seat load-bearing structures, cooperating backrest element, and cushioned load support characteristics.
- 10. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein a portion of said front leg frame is disposed above said second pair of pivot points, wherein at least one said front leg frame cross-member is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, wherein said rear leg frame is connected in static union with a supportive grounding surface, wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, wherein said third pair of pivot points is generally near the lower end of said front leg frame, and wherein said motion-governing means are adapted to suspend the lower end of said front leg frame in space, independent of a supportive grounding surface, when the article is in use, said article thereby forming a fixed-rear-leg-frame stationary chair comprising co-acting footrest and seat load-bearing structures, cooperating backrest element, and cushioned load support characteristics.
- 11. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein a portion of said front leg frame is disposed above said second pair of pivot points, wherein at least one of said front leg frame cross-members is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, wherein said third pair of pivot points is generally near the lower end of said front leg frame, and wherein said lower load-bearing structure declines toward the front end of said lower load-bearing structure, said front end of said lower load-bearing structure engaging a supportive grounding surface, said article thereby forming a free-standing chair, comprising a balancing, load-distributing, counterbalancing, and load-reapportioning upper load-bearing seat structure and cooperating backrest element.
- 12. A foldable article as defined in claim 1;
- wherein the length of said upper load-bearing structure surface elements generally equals the length of said upper load-bearing structure side elements, wherein the breadth of said upper load-bearing structure surface elements generally equals the space between the outer lateral surfaces of said upper load-bearing structure side elements, wherein a portion of said front leg frame is disposed above said second pair of pivot points, wherein at least one of said front leg frame cross-members is disposed between said front leg frame side elements above said second pair of pivot points, thereby forming a backrest element, wherein said fourth pair of pivot points is generally near the rear end of said lower load-bearing structure, and wherein said third pair of pivot points is generally near the front end of said lower load-bearing structure, said article thereby forming a free-standing chair, comprising a balancing, load-distributing, counterbalancing, and load-reapportioning upper load-bearing seat structure and cooperating backrest element.
Parent Case Info
This application is a continuation-in-part of the applicant's previous application, Ser. No. 07/816,298, filed on Dec. 27, 1991, now abandoned which is a continuation-in-part of the application's original patent application, Ser. No. 07/024,178, filed on Mar. 9, 1987 now abandoned.
US Referenced Citations (8)
Foreign Referenced Citations (1)
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Jan 1926 |
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Continuation in Parts (2)
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816298 |
Dec 1991 |
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24178 |
Mar 1987 |
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